JP2004068314A - Hydrant - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hydrant over which a person is not required to crouch when he/she washes gardening tools and he/she can work with ease. <P>SOLUTION: The hydrant 1 internally having a rising pipe 2 for water supply is provided with a hollow columnar casing 3 erected on the ground and a hydrant 4 connected to the upper end of the rising pipe 2 for water supply. An upper water receiver 5 holding water delivered from the hydrant 4 is connected to the upper part of the casing 3. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a faucet pole installed in a garden, a park, or the like.
[0002]
[Prior art]
As a conventional faucet pillar, a hollow pillar-shaped casing having a built-in water supply riser and standing on the ground, and a faucet connected to the upper end of the water supply riser are provided, and water discharged from the faucet is provided at a lower part of the casing. It is known that a water receiving container for receiving the water is mounted while being placed on the ground.
[0003]
[Problems to be solved by the invention]
However, in the above-mentioned water faucet column, since the water receiving container is attached to the lower part of the casing, it is necessary to bend down when washing gardening tools, for example, and there is a problem that it is difficult to work.
[0004]
An object of the present invention is to provide a water faucet pillar that can be easily worked without needing to bend when washing gardening tools and the like.
[0005]
Means for Solving the Problems and Effects of the Invention
The water faucet column according to the present invention includes a hollow columnar casing that has a built-in water supply riser and is erected on the ground, and a faucet connected to the upper end of the water supply pipe. An upper water receiving container for receiving the drained water is attached.
[0006]
According to the above-mentioned faucet pillar, in the upper water receiving container attached to the upper part of the casing, the horticultural tools and the like can be washed while standing, so that there is no need to bend down when washing as in the prior art, and the work is not required. It is easy.
[0007]
In the water faucet pillar according to the present invention, it is preferable that a drain pipe is connected in a hanging manner to a drain port of the upper water receiving container.
[0008]
The drainage pipe prevents the drainage from the drainage port of the upper water receiving container from scattering. In addition, the water flowing down from the drain pipe can be stored in a bucket or the like, or the water can be reused for washing, which is convenient.
[0009]
In the water faucet pillar according to the present invention, it is preferable that a lower water receiving container for receiving water discharged from a drain port of the upper water receiving container is attached to a lower portion of the casing while being placed on the ground.
[0010]
If the lower water receiving container as described above is further provided on the faucet post, in this container, the water discharged from the drain port of the upper water receiving container can be reused, and washing can be carried out. It is.
[0011]
The casing may be fixed upright on the ground by burying its lower part in the ground, or may be movable on the ground by providing a base mounted on the ground at its lower end. . In the former case, the lower end of the water supply riser is connected to the tip of the underground water supply pipe. In the latter case, the lower end of the water supply riser is connected to the tip of a water supply pipe installed above the ground, such as a water supply hose. In the latter case, the base can also be used for the lower water receiving container.
[0012]
The faucet is connected to the upper end of the water supply riser through a hole formed at a required position of the casing. The faucet is usually fixed to the upper end surface or upper side of the casing, but may be fixed to the upper end of the upper water receiving container.
[0013]
The upper water receiving container is not particularly limited in its material and shape as long as it can be attached to the upper part of the casing and can receive the water discharged from the faucet. It is formed in a dish shape, a tub shape, a tank shape or the like depending on the material. The means for attaching the upper water receiving container to the upper portion of the casing is not particularly limited, either. For example, a fitting hole or a lower opening-shaped concave portion that is fitted over the upper portion of the casing is formed in the upper water receiving container, and both are fitted. Means for combining can be given. In this case, it is preferable to form an outward flange portion for receiving the upper water receiving container at a required height position above the casing. In addition, the upper water receiving container may be attached to the upper portion of the casing by joining means such as bolt joining, bonding, welding or the like in addition to or instead of the fitting means. The upper water receiving container is attached to the upper portion of the casing such that the center thereof is shifted with respect to the central axis of the casing, or may be attached to the upper portion of the casing such that the center thereof substantially matches the central axis of the casing. It is preferable that the upper water receiving container is provided with a drain plug for closing the drain port.
[0014]
The drainage pipe is usually formed of a resin pipe such as a vinyl chloride resin pipe, but may be formed of a metal pipe. Further, the drain pipe may be formed by a flexible pipe such as a bellows pipe. The length of the drain pipe is appropriately determined according to the distance from the drain port of the upper water receiving container to the ground or the bottom surface of the lower water receiving container. However, if the length is too long, it becomes difficult to store the water flowing down from the drain pipe in a bucket or the like or to wash using the water. In addition, the means for connecting the drainage pipe to the drainage outlet is not particularly limited, and an appropriate one may be adopted from known pipe connection means.
[0015]
The material and the shape of the lower water receiving container are not particularly limited as long as the lower water receiving container can be attached to the lower portion of the casing while being placed on the ground and can receive the water discharged from the drain port of the upper water receiving container. Not limited. This lower water receiving container can be configured in the same manner as the conventional water receiving column water receiving container described above. Therefore, the means for attaching the lower water receiving container to the lower portion of the casing is not particularly limited. For example, a fitting hole or an upper opening-shaped concave portion that fits over the lower portion of the casing is formed in the lower water receiving container. Can be mentioned. In this case, it is preferable to form an outward flange portion for pressing the lower water receiving container from above at a required height position below the casing. Further, the lower water receiving container may be attached to the upper portion of the casing by joining means such as bolt joining, bonding, welding, or the like in addition to or instead of the fitting means. The lower water receiving container is attached to the lower portion of the casing such that the center thereof is shifted with respect to the central axis of the casing, or may be attached to the lower portion of the casing such that the center substantially matches the central axis of the casing. Preferably, the lower water receiving container is also provided with a drain plug for closing the drain port. The water discharged from the drain port of the lower water receiving container may flow down to the ground as it is, or may flow into an underground drain pipe connected to the drain port.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, a preferred embodiment of the present invention will be described with reference to FIGS. In the following description, “before” refers to the left of FIGS. 1 and 4, and “rear” refers to the same right.
[0017]
1 to 3 show a first embodiment of the present invention. The faucet column (1) shown in these figures includes a hollow columnar casing (3) which has a built-in water supply riser (2) and is erected on the ground, and a faucet () connected to the upper end of the water supply riser (2). 4). An upper water receiving container (5) for receiving water discharged from the faucet (4) is attached to an upper portion of the casing (3). A drain pipe (6) is connected to a drain port (51) of the upper water receiving container (5) in a hanging manner. Further, a lower water receiving container (7) for receiving water discharged from a drain port (51) of the upper water receiving container (5) is attached to a lower portion of the casing (3) while being placed on the ground.
[0018]
The casing (3) is a hollow quadrangular prism made of polyresin. The casing (3) is fixedly erected on the ground by burying a lower portion of the casing in the ground to a required depth.
[0019]
The lower end of the water supply riser (2) is connected to the tip of the underground water supply pipe (8) through a hole formed in the lower part of the front wall of the casing (3).
[0020]
The faucet (4) is constituted by a universal faucet as shown in FIGS. The faucet (4) is connected to the upper end of the water supply riser (2) through a hole formed in the top wall of the casing (3). More specifically, a female screw part (21) is provided at the upper end of the water supply riser pipe (2), and the female screw part (21) is inserted through a hole in the top wall of the casing (3) to form a water faucet (4) lower end. The male thread (41) is screwed, whereby the faucet (4) is connected to the upper end of the water supply riser (2) and fixed to the upper end surface of the casing (3).
[0021]
The upper water receiving container (5) is a trough made of FRP. In the upper water receiving container (5), a fitting hole (52) having a rectangular cross section formed in the container is fitted over the casing (3) from above and covers the lower edge of the fitting hole (52). The casing (3) is attached to the upper part of the casing (3) by making contact with an outward flange (31) formed at the upper part. The fitting hole (52) is formed in a vertically penetrating shape at a protruding portion (53) having a rectangular cross section formed at a rear portion in the upper water receiving container (5). The drain port (51) of the upper water receiving container (5) is formed near the center of the bottom wall (54) of the container. The upper water receiving container (5) is provided with a drain plug (55) for closing the drain port (51).
[0022]
The drain pipe (6) is made of a vinyl chloride resin pipe and has an annular outward flange (61) at the upper end thereof as shown in FIG. The flange (61) is received via a packing (62) at a step (56) formed at the periphery of the drain port (51) on the bottom wall (54) of the upper water receiving container (5). A male screw part (63) is formed near the upper end of the drain pipe (6). By tightening a nut (64) into the female screw part (63), the drain pipe (6) is placed in the upper water receiving part. It is fixed to the bottom wall (54) of the container (5). The drain pipe (6) has a length such that the distance between the tip thereof and the bottom surface of the lower water receiving container (7) is about 25 cm.
[0023]
The lower water receiving container (7) is a dish-shaped FRP container, and has a considerably larger diameter than the upper water receiving container (5). In the lower water receiving container (7), a fitting hole (71) having a rectangular cross section formed in the container is fitted over the casing (3) from below, and the upper edge of the fitting hole (71) is covered. The casing (3) is attached to the lower portion of the casing (3) by being brought into contact with an outward flange (32) formed at the lower portion. The fitting hole (71) is formed in a vertically penetrating shape in a projection (73) having a rectangular cross section formed inside the rear part of the peripheral wall (72) in the lower water receiving container (7). A drain port (75) is opened near the center of the bottom wall (74) of the lower water receiving container (7). The lower water receiving container (7) is provided with a drain plug (76) for closing the drain port (75). The base end of the underground drainage pipe (9) is connected to the drain port (75).
[0024]
In the above-mentioned faucet column (1), when the handle (42) of the faucet (4) is operated to discharge water from the spout (43), horticultural tools and the like can be stored in the upper water receiving container (5). You can wash it easily while standing. The water received in the upper water receiving container (5) is discharged through the drain pipe (6) connected to the drain port (51), so that the water does not scatter and there is no danger that the clothes and the like get wet. If a bucket or the like is placed below the drainage pipe (6) in the lower water receiving container (7), the water flowing down from the drainage pipe (6) can be collected and reused. Alternatively, in the lower water receiving container (7), the water flowing down from the drain pipe (6) can be reused for washing.
[0025]
4 and 5 show a second embodiment of the present invention. The faucet pillar (1A) shown in these figures also has a hollow pillar-shaped casing (3A) that has a built-in water supply riser (2A) and stands on the ground, and a faucet (2A) connected to the upper end of the water supply riser (2A). 4). An upper water receiving container (5A) for receiving water discharged from the faucet (4) is attached to an upper portion of the casing (3A). A drain pipe (6) is connected to a drain port (51) of the upper water receiving container (5A) in a hanging manner. Further, a lower water receiving container (7A) for receiving water discharged from the drain port (51) of the upper water receiving container (5A) is attached to a lower portion of the casing (3A) while being placed on the ground.
[0026]
The casing (3A) is a hollow column made of polyresin. The casing (3A) is provided movably on the ground by providing a base (30) mounted on the ground at the lower end thereof. In this embodiment, the lower water receiving container (7A) also serves as the base (30).
[0027]
The lower end of the water supply riser (2A) is connected to the front end of a water supply hose (8A), which is a water supply hose, through a hole formed in the lower rear part of the peripheral wall of the casing (3A).
[0028]
The faucet (4) is constituted by a universal faucet similar to that of the first embodiment.
[0029]
The upper water receiving container (5A) is a trough-shaped FRP. In the upper water receiving container (5A), a lower opening-shaped fitting concave portion (52A) formed in the container and having a circular cross section is fitted over the casing (3A) from above, and the bottom of the fitting concave portion (52A) is formed. Is attached to the upper part of the casing (3A) by contacting the upper end face of the casing (3A). The fitting recess (52A) is formed by the inside of a cylindrical hanging part (53A) formed at the center of the bottom wall (54) of the upper water receiving container (5A). The drain port (51) is formed at the front of the bottom wall (54) of the upper water receiving container (5A). The upper water receiving container (5A) is provided with a drain plug (55) for closing the drain port (51).
[0030]
At the rear of the upper water receiving container (5A), an outwardly projecting portion (57) having a D-shaped cross section is integrally provided. A vertical through hole (571) is formed in the outward projection (57). The faucet (4) has a male screw (41) at the lower end thereof inserted into the vertical through hole (571) of the outwardly projecting portion (57) from above, and a fixing nut (41) is inserted into the male screw (41) from below. 58) is fixed to the upper end of the outwardly projecting portion (57) of the upper water receiving container (5A) by screw fitting. The base end of the horizontal pipe part (111) of the L-shaped connection pipe (11) is connected to the upper end of the water supply riser pipe (2A) through a hole formed in the upper rear part of the peripheral wall of the casing (3A). The vertical pipe portion (112) of the L-shaped connection pipe (11) is inserted from below into the through hole (571) of the outwardly projecting portion (57) of the upper water receiving container (5A). A nut (113) is rotatably attached to the tip of the vertical pipe portion (112) of the L-shaped connection pipe (11). Then, by screwing the nut (113) into the lower end of the male screw portion (41) of the faucet (4), the tip of the vertical portion (112) of the L-shaped connecting pipe (11) is connected to the faucet (4). ing. With the above configuration, the faucet (4) is connected to the upper end of the water supply rising pipe (2A) via the L-shaped connecting pipe (11).
[0031]
The drain pipe (6) has substantially the same structure as that of the first embodiment, and is connected to the drain port (51) of the upper water receiving container (5A) in the same manner as in the first embodiment. Have been.
[0032]
The lower water receiving container (7A) is a dish-shaped FRP made, and has a considerably larger diameter than the upper water receiving container (5A). The lower water receiving container (7A) is formed by fitting an upper opening-shaped fitting concave portion (71A) having a circular cross section formed in the container into a casing (3A) from below, thereby forming a bottom of the fitting concave portion (71A). Is attached to the lower portion of the casing (3A) by contacting the outer flange with the outward flange (32) formed at the lower portion of the casing (3A). The fitting concave portion (71A) is constituted by the inside of a cylindrical rising portion (73A) formed at a portion slightly behind the center of the bottom wall (74) of the lower water receiving container (7A). A vertical wall (77) is formed between the rising part (73A) of the lower water receiving container (7A) and the rear part of the peripheral wall (72) so as to connect them. A drain port (75) is opened in a portion of the bottom wall (74) of the lower water receiving container (7A) slightly forward of the center. The lower water receiving container (7A) is provided with a drain plug (76) for closing the drain port (75). Since the faucet pillar (1A) is of a movable type, the water flowing out of the drain port (75) of the lower water receiving container (7A) is allowed to flow into the ground as it is.
[0033]
The water column (1A) according to the above-described second embodiment has substantially the same operation and effect as the water column (1) according to the first embodiment.
[0034]
It should be noted that each of the above embodiments is merely an example, and it is a matter of course that the present invention can be carried out with appropriate modifications without departing from the spirit of the present invention described in the claims. is there.
[Brief description of the drawings]
FIG. 1, showing a first embodiment of the present invention, is a vertical sectional view of a faucet column.
FIG. 2 is an enlarged vertical sectional view showing a connection portion between a drain port of an upper water receiving container and a drain pipe in the faucet column of FIG.
FIG. 3 is an exploded perspective view of the faucet pillar of FIG.
FIG. 4 shows a second embodiment of the present invention, and is a vertical sectional view of a faucet column.
FIG. 5 is an exploded perspective view of the faucet pillar of FIG.
[Explanation of symbols]
(1) (1A): faucet post (2) (2A): water supply riser (3) (3A): casing (4): faucet (5) (5A): upper water receiving container (51): drainage Mouth (6): Drain pipe (7) (7A): Lower water receiving container

Claims (3)

A hollow columnar casing (3) (3A) that has a built-in water supply riser (2) (2A) and is set up on the ground, and a faucet (4) connected to the upper end of the water supply riser (2) (2A). In the equipped faucet pillar,
A water faucet pole, wherein upper water receiving containers (5) and (5A) for receiving water discharged from the water faucet (4) are attached to upper portions of the casings (3) and (3A). The faucet pillar according to claim 1, characterized in that a drain pipe (6) is connected to a drain port (51) of the upper water receiving container (5) (5A) in a hanging manner. At the lower part of the casings (3) and (3A), lower water receiving containers (7) and (7A) for receiving water discharged from the drain port (51) of the upper water receiving containers (5) and (5A) are placed on the ground. The faucet pillar according to claim 1, wherein the faucet pole is attached in an inclined state.

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